Articles
2024
- Choisnard, N., T. Sperlea, I. Liskow and M. Voss (2024). Nitrification in the Amazon River plume. Mar. Ecol. Prog. Ser. 730: 1-14, doi: 10.3354/meps14530
- Riedinger, D. J., Fernández-Juárez, V., Delgado, L. F., Sperlea, T., Hassenrück, C., Herlemann, D. P. R., Pansch, C., Kataržytė, M., Bruck, F., Ahrens, A., Rakowski, M., Piwosz, K., Stevenson, A., Reusch, T. B. H., Gyraitė, G., Schulz-Bull, D., Benterbusch-Brockmöller, H., Kube, S., Dupke, S., Andersson, A. F., Riemann, L. & Labrenz, M. (2024). Control of Vibrio vulnificus proliferation in the Baltic Sea through eutrophication and algal bloom management. Communications Earth & Environment 5:246
- Tagg, A. S., T. Sperlea, C. Hassenrück, B. Kreikemeyer, D. Fischer and M. Labrenz (2024). Microplastic-antifouling paint particle contamination alters microbial communities in surrounding marine sediment. Sci. Total Environ. 926: 171863, doi:10.1016/j.scitotenv.2024.171863
2022
- A theoretical basis for bioindication in complex ecosystems
- , H. , D.
2021
- T. Sperlea, N. Kreuder, D. Beisser, G. Hattab, J. Boenigk, D. Heider (2021). Quantification of the covariation of lake microbiomes and environmental variables using a machine learning‐based framework. Molecular Ecology 30 (9), 2131-2144;
2020
- T. Sperlea, L. Muth, R. Martin, C. Weigel, T. Waldminghaus, D. Heider (2020). gammaBOriS: identification and taxonomic classification of origins of replication in gammaproteobacteria using Motif-based machine learning. Scientific reports 10 (1), 1-9;
- H. F. Löchel, D. Eger, T. Sperlea, Dominik Heider (2020). Deep learning on chaos game representation for proteins. Bioinformatics 36 (1), 272-279; DOI: 10.1093/bioinformatics/btz493
- T. Richardson, D. Stevens, S. Pelliciari, O. Harran, T. Sperlea, H. Murray (2019). Identification of a basal system for unwinding a bacterial chromosome origin
The EMBO journal 38 (15), e101649; DOI: 10.15252/embj.2019101649
- F. S. Kemter, N. Schallopp, T. Sperlea, J. Serrania, P. Sobetzko, G. Fritz, T. Waldminghaus (2019). Stringent response leads to continued cell division and a temporal restart of DNA replication after initial shutdown in Vibrio cholerae. Molecular microbiology 111 (6), 1617-1637; DOI: 10.1111/mmi.14241
2018
- T. Sperlea, S. Füser, J. Boenigk, D. Heider (2018). SEDE-GPS: socio-economic data enrichment based on GPS information. BMC bioinformatics 19 (15), 73-83; DOI: 10.1186/s12859-018-2419-4
- N. Schallopp, S. Milbredt, T. Sperlea, F. S. Kemter, M. Bruhn, D. Schindler, T. Waldminghaus (2018) Establishing a system for testing replication inhibition of the Vibrio cholerae secondary chromosome in Escherichia coli. Antibiotics 7 (1), 3;
10.3390/antibiotics7010003
2016
- D. Schindler, S. Milbredt, T. Sperlea, T. Waldminghaus (2016). Design and Assembly of DNA Sequence Libraries for Chromosomal Insertion in Bacteria Based on a Set of Modified MoClo Vectors. ACS synthetic biology 5 (12), 1362-1368;
10.1021/acssynbio.6b00089
Books
-
T. Sperlea. Multiple Sequence Alignments: Which Program Fits My Data? Springer Berlin Heidelberg, 2022; ISBN: 978-3-662-64472-0 [Translated from German by DeepL]
-
T. Sperlea. Multiple Sequenzalignments: Welches Programm passt zu meinen Daten? Springer Spektrum, 2019; ISBN: 978-3-662-58811-6
Theodor Sperlea - Publications
Articles
2024
- Choisnard, N., T. Sperlea, I. Liskow and M. Voss (2024). Nitrification in the Amazon River plume. Mar. Ecol. Prog. Ser. 730: 1-14, doi: 10.3354/meps14530
- Riedinger, D. J., Fernández-Juárez, V., Delgado, L. F., Sperlea, T., Hassenrück, C., Herlemann, D. P. R., Pansch, C., Kataržytė, M., Bruck, F., Ahrens, A., Rakowski, M., Piwosz, K., Stevenson, A., Reusch, T. B. H., Gyraitė, G., Schulz-Bull, D., Benterbusch-Brockmöller, H., Kube, S., Dupke, S., Andersson, A. F., Riemann, L. & Labrenz, M. (2024). Control of Vibrio vulnificus proliferation in the Baltic Sea through eutrophication and algal bloom management. Communications Earth & Environment 5:246
- Tagg, A. S., T. Sperlea, C. Hassenrück, B. Kreikemeyer, D. Fischer and M. Labrenz (2024). Microplastic-antifouling paint particle contamination alters microbial communities in surrounding marine sediment. Sci. Total Environ. 926: 171863, doi:10.1016/j.scitotenv.2024.171863
2022
- A theoretical basis for bioindication in complex ecosystems
- , H. , D.
2021
- T. Sperlea, N. Kreuder, D. Beisser, G. Hattab, J. Boenigk, D. Heider (2021). Quantification of the covariation of lake microbiomes and environmental variables using a machine learning‐based framework. Molecular Ecology 30 (9), 2131-2144;
2020
- T. Sperlea, L. Muth, R. Martin, C. Weigel, T. Waldminghaus, D. Heider (2020). gammaBOriS: identification and taxonomic classification of origins of replication in gammaproteobacteria using Motif-based machine learning. Scientific reports 10 (1), 1-9;
- H. F. Löchel, D. Eger, T. Sperlea, Dominik Heider (2020). Deep learning on chaos game representation for proteins. Bioinformatics 36 (1), 272-279; DOI: 10.1093/bioinformatics/btz493
- T. Richardson, D. Stevens, S. Pelliciari, O. Harran, T. Sperlea, H. Murray (2019). Identification of a basal system for unwinding a bacterial chromosome origin
The EMBO journal 38 (15), e101649; DOI: 10.15252/embj.2019101649
- F. S. Kemter, N. Schallopp, T. Sperlea, J. Serrania, P. Sobetzko, G. Fritz, T. Waldminghaus (2019). Stringent response leads to continued cell division and a temporal restart of DNA replication after initial shutdown in Vibrio cholerae. Molecular microbiology 111 (6), 1617-1637; DOI: 10.1111/mmi.14241
2018
- T. Sperlea, S. Füser, J. Boenigk, D. Heider (2018). SEDE-GPS: socio-economic data enrichment based on GPS information. BMC bioinformatics 19 (15), 73-83; DOI: 10.1186/s12859-018-2419-4
- N. Schallopp, S. Milbredt, T. Sperlea, F. S. Kemter, M. Bruhn, D. Schindler, T. Waldminghaus (2018) Establishing a system for testing replication inhibition of the Vibrio cholerae secondary chromosome in Escherichia coli. Antibiotics 7 (1), 3;
10.3390/antibiotics7010003
2016
- D. Schindler, S. Milbredt, T. Sperlea, T. Waldminghaus (2016). Design and Assembly of DNA Sequence Libraries for Chromosomal Insertion in Bacteria Based on a Set of Modified MoClo Vectors. ACS synthetic biology 5 (12), 1362-1368;
10.1021/acssynbio.6b00089
Books
-
T. Sperlea. Multiple Sequence Alignments: Which Program Fits My Data? Springer Berlin Heidelberg, 2022; ISBN: 978-3-662-64472-0 [Translated from German by DeepL]
-
T. Sperlea. Multiple Sequenzalignments: Welches Programm passt zu meinen Daten? Springer Spektrum, 2019; ISBN: 978-3-662-58811-6